JPH11514172A - Rapid power control in variable data rate mobile CDMA communication systems - Google Patents

Abstract

(57) Abstract A method and apparatus for controlling transmission power of a mobile communication system are disclosed. The disclosed method provides a closed loop power control method for variable rate transmission. The transmission power varies according to the frame rate of the transmitted data. The transmission power between the rates can be fixed or variable difference.

Description

DETAILED DESCRIPTION OF THE INVENTION Rapid power control in variable data rate mobile CDMA communication systems Background of the Invention I. Field of the invention   The present invention relates to communication systems. The invention more particularly relates to a mobile communication system And a new and improved method and apparatus for controlling transmission power at the same time. II. Description of related technology   The use of modulation techniques with code division multiple access (CDMA) is a problem for many system users. Is one of the techniques that facilitates existing communications. Time division multiple access ( Other multiple access communication systems such as TDMA) and frequency division multiple access (FDMA) Techniques are also well known in the art. However, CDMA spread spectrum modulation techniques Has significant advantages over these modulation techniques for multiple access communication systems. A scheme using CDMA techniques in a multiple access communication system is disclosed in the assignee of the present invention. Spread spectrum multiple access communication system using satellite or terrestrial repeater System ”(SPREAD SPECTRUMMULTIPLE ACCESS COMMUNICATION SYSTEM USING SATELL U.S. Pat. No. 4,901,307 entitled "ITE OR TERRESTRIAL REPEATERS" , Incorporated herein by reference. Multiple access communication system The scheme using CDMA techniques for the system is further described in “CDM” assigned to the assignee of the present invention. System and Method for Generating Signal Waveform in A-Cellular Telephone System "(SYST EM AND METHOD FOR GENERATING SIGNAL WAVEFORMS IN A CDMA CELLULAR TELEPHO NE SYSTEM), which is disclosed in US Pat. No. 5,103,459. , The disclosure of which is incorporated herein by reference.   CDMA, which is a wideband signal, spreads signal energy over a wide bandwidth This provides a form of frequency diversity. Therefore, the frequency Selecting and fading affects only a small portion of the CDMA signal bandwidth. Diversity of space and routes can be achieved simultaneously from mobile users via two or more cell sites. It is obtained by providing multiple signal paths through the link. Furthermore, Path diversity separates and receives and processes signals arriving with different propagation delays By using a multi-path environment with spread spectrum processing, Obtained. An example of route diversity is "Communications in CDMA cellular telephone systems." Method and System for Providing Soft Handoff of Shin (METHOD AND SYSTEM FOR PR OVIDING A SOFT HANDOFF IN COMMUNICATIONS IN A CDMA CELLULAR TELEPHONE SY U.S. Patent No. 5,101,501, entitled "CDMA Cellular Telephone". Diversity receiver in system "(DVERSITY RECEIVER IN A CDMA CELLULAR TEL No. 5,109,390 entitled EPHONE SYSTEM). But both are assigned to the assignee of the present invention and are incorporated herein by reference. .   Digital communication systems that have a particular advantage in increasing capacity while maintaining high quality perceived speech The method of transmitting audio in the system uses a variable rate audio encoding scheme. Used. Details of a method and apparatus using a particularly useful variable rate audio encoder are described in this book. "VARIABLE RATE VOCODER" assigned to the assignee of the invention No. 5,414,796, which is incorporated herein by reference. Built in.   By using a variable rate audio encoder, the audio encoding Data at the maximum audio data capacity when the Prepare for the frame. Variable-rate speech coder is capable of speech at a rate less than its maximum rate When providing data, there is extra capacity in transmitted frames. You. The data source of the data frame is providing data at a variable data rate However, there is a method for transmitting additional data in a transmission frame of a fixed predetermined size. Has been assigned to the assignee of the present invention. "Method and Apparatus for Formatting Data for Transmission" (METHOD AND APPARAT 1992, entitled US FOR THE FORMATTING OF DATA FOR TRANSMISSION Is a continuation of US patent application Ser. No. 07 / 822,164, filed on Mar. It is described in detail in co-pending US patent application Ser. No. 08 / 171,146, The disclosure is incorporated herein by reference. In the above patent application, different data Combining different types of data from sources in data frames for transmission An apparatus is disclosed.   Frames containing less than the specified amount of data contain the data. Gating a transmission amplifier that transmits only the frame portion Consumption can be reduced. In addition, message collisions in communication systems Is reduced if the data fits into a frame according to a pseudo-random process. Biography A method and apparatus for gating transmissions and framing data is the assignee of the present invention. Called "DATA BURST RANDOMIZER" United States Patent Application Serial No. 07 / 846,312, filed March 5, 1992, titled No. 08 / 194,823, which is a continuation-in-part of U.S. Pat. The disclosure of which is incorporated herein by reference.   A useful method of controlling the output of a mobile device in a communication system is to receive from a mobile station. The output of the signal is monitored by the base station. The base station adjusts to the monitored power level. Accordingly, power control bits are transmitted to the mobile station at regular intervals. Thus the transmission output A method and apparatus for controlling a CDMA cellular mobile device assigned to the assignee of the present invention. METHOD AND APPARATUS FOR CONTROLLING TRANSMISSION POWER IN TELEPHONE SYSTEMS "(METHOD AND APPARATUS  FOR CONTROLLING TRANSMISSION POWER IN A CDMA CELLULAR MOBILE TELEPHONE No. 5,056,109, entitled SYSTEM). The disclosure is incorporated herein by reference.   In communication systems that provide data using the QPSK modulation format, Useful information is to take the cross product of the I and Q components of the QPSK signal Can be obtained by: By knowing the relative phase of these two components, The speed of the mobile station can be almost measured with respect to the base station. QPSK modulation communication system Of the circuit for measuring the cross product of the I component and the Q component is described in the assignee of the present invention. "Pilot carrier dot multiplication circuit" (PILOT CARRIER DOT PRODUCT) US Patent Application No. 0, filed November 24, 1992, entitled CIRCUIT). U.S. patent application Ser. No. 08 / 343,800, which is a continuation of US patent application Ser. No. 07 / 981,034. And the disclosure of which is incorporated herein by reference.   In an alternative continuous transmission strategy, if the data rate is less than the predetermined maximum, Data is repeated inside the frame so that it occupies the entire capacity of the data frame. Will be returned. By adopting such a strategy, consumption output and Interference is achieved by reducing the power in transmitting a frame to a predetermined maximum rate. During the data transmission period below the rate. Thus the transmission output Is compensated by the redundancy of the data stream and the fixed maximum Within the range of forces can be an advantage.   The problem with controlling the transmission power in a continuous transmission strategy is that the Without knowing the power level a priori, and as a result, That is to say. The present invention relates to a method for controlling transmission power in a continuous communication system. And to provide equipment. Summary of the Invention   The present invention provides a new and improved method for controlling closed-loop transmission power in a communication system. Method and equipment. It is an object of the present invention to provide a communication link It is to provide the timely output control required to provide quality.   In a mobile communication environment, the fade state of a propagation path changes rapidly. This present The elephant is described in detail in the aforementioned U.S. Pat. No. 5,056,109. The communication station It must be able to cope with such sudden changes in the seeding route. The present invention Responds to rapid changes in the communication channels of mobile communication systems. A corresponding method and apparatus are provided.   In a code division multiple access (CDMA) communication system, the method described herein is particularly In another sense, the reason is that the transmission power is reduced to the minimum required for high quality communication. By reducing this, the communication system reduces interference with other users' transmissions. To increase the capacity of the entire system. Moreover, in systems with limited capacity, If the power is reduced for one user, another user can transmit at a higher power level. However, this may be due to different propagation paths or It is necessary because there is.   Further, while a power control technique is presented in the illustrated embodiment, In communication systems, these methods presented are equally applicable to other communication systems. Note that it is applicable. In addition, the communication between the base station and the remote or mobile station The exemplary embodiment used to control the transmission power during transmission is a remote station or mobile station. The present invention can also be applied to control of transmission power at the time of transmission from a mobile station to a base station.   In the illustrated embodiment, the base station transmits a packet of data to the mobile station. Mobile station A packet is received, and the received packet is demodulated and decoded. The mobile station receives If it is determined that the decoded packet cannot be reliably decoded, the The quality response output control bit, which is 0, is set to 1 to indicate this situation to the base station. You. In response, the base station increases the transmission power of the signal to the mobile station.   In the illustrated embodiment of the present invention, when the base station increases its transmission power, Is transmitted to a relatively large degree, which is assumed to be more than appropriate in the most fading situations. Increase transmission power. Then, the base station sets the quality response output control bit to “0”. As long as the transmission power level is reduced at an exponential decreasing rate. Alternative embodiment In response, the base station responds to the mobile station's request for increased Increase the output little by little.   In an improved embodiment of this power control system, the base station reports Judge whether the error is irregular, and if so, reduce the transmission power. And that the error is due to a pure fade situation Determine if there is. Base station sends irregularity error and long-term error from mobile station By checking the pattern of the output control bits. Mobile station is base The pattern of the output control request signal transmitted back to the station is The base station reduces the transmission power if it indicates that a load condition exists. Never.   In an improved embodiment, the base station transmits a pattern of incoming power control messages. To determine the characteristics of the fade. Using the inferred result of the fade feature, The required change in the output control can be estimated. This control is performed, for example, by the base station This is possible by predicting the output control at.   One of the sudden sources of change in the mobile station's propagation path is based on the position of the base station. This is the change in speed. That is, the speed of approaching or leaving the mobile station changes. It is whether or not it is. According to the present invention, the mobile station can operate at a speed based on the base station. Judge that the speed is changing, and if necessary, set the output control bit to Request additional output from the base station to respond to the degree change.   In a first exemplary embodiment, the mobile station is a speedometer or a speedometer for an on-board mobile station. It has a motion sensor that operates based on information from the tachometer. The mobile station An output control signal is generated according to the signal from the motion sensor.   In the second exemplary embodiment, the mobile station perceives the deviation of the received signal from the base station and operates. Perceive movement. In this illustrative embodiment, the mobile station transmits a received pilot signal. The relative velocity is measured by measuring the Doppler effect.   The present invention also provides a method and apparatus for controlling transmission power for transmission at a variable rate. provide. This method uses variable rate data at various output levels depending on the rate. To communicate data frames. Adjusting transmission power level in variable rate communication systems Several implementations have been disclosed. BRIEF DESCRIPTION OF THE FIGURES   BRIEF DESCRIPTION OF THE DRAWINGS The features, objects and advantages of the present invention are illustrated in the drawings in which the same reference characters similarly identify all. From the detailed description detailed below when performed with It will be.   FIG. 1 is a diagram of an exemplary mobile telephone system;   FIG. 2 is a diagram of the device of the present invention;   FIG. 3 is a curve showing the required delay time in a closed loop power control system. FIG.   4a-4b show the normalized error rates for different rates of frame error rate pairs. FIG. 4 is a diagram of a pilot of energy. The mobile station in FIG. 4a is stationary And the mobile station of FIG. 4b is moving,   FIG. 5 illustrates an exemplary implementation of a control processor for implementing a single loop fixed difference. Shows the form,   FIG. 6 illustrates an exemplary implementation of a control processor for implementing a single loop variable difference. Shows the form,   FIG. 7 shows a control processor for realizing multiple loops and one loop per rate. FIG. 3 illustrates an exemplary embodiment of the present invention;   FIG. 8 illustrates the implementation of multiple loops, one loop per frequent rate. FIG. 3 illustrates an exemplary embodiment of a control processor for:   FIG. 9 shows control for realizing multiple loops, one loop per rate, and a composite criterion. FIG. 3 illustrates an exemplary embodiment of a processor;   FIG. 10 illustrates a control processor for implementing single-loop composite feedback. 1 shows an exemplary embodiment of the present invention. Detailed Description of the Preferred Embodiment   Referring to FIG. 1, the present invention comprises a base station 4 and a mobile station 6. Is shown in an exemplary implementation in a mobile communication system that controls the transmission power during. Information is provided to the public switched telephone network (PSTN) and Network (PSTN) to the system controller exchange 2 or Or the call is a mobile station for mobile station communication Is supplied to the system controller exchange 2 by another base station. System controller exchange 2 May be supplied from System controller exchange 2 is based on data in order It supplies the station 4 and receives data from the base station 4. Be The station 4 sends data to the mobile station 6 and 6 is received.   In the exemplary embodiment, between the base station 4 and the mobile station 6 The transmitted signal has a waveform generated by the aforementioned U.S. Pat. No. 4,901,307. And a spread spectrum communication signal described in detail in US Pat. No. 5,103,459. It is. Communication of messages between mobile station 6 and base station 4 The transmission link for is called the reverse link and is The outgoing link for the communication of messages to and from station 6 is called the forward link. It is. In an exemplary embodiment, the present invention controls the transmit power of base station 4. Used to control. However, the output control method of the present invention does not The present invention can be similarly applied to controlling the transmission power of the station 6.   Referring to FIG. 2, the base station 50 and the mobile station 30 A block diagram showing an apparatus for controlling the transmission power of the base station 50 according to the present invention. It is shown in the form of a block diagram. If the communication link degrades, the link characteristics This can be improved by reducing the transmission power of the transmitting device. Bases In an exemplary embodiment for controlling the transmission power of the station 50, the base station Some of the ways to determine that the transmission power of the option 50 should be increased are: (A) Mobile station detection of frame error on forward link (B) The mobile station detects that the received power is low on the forward link (C) The distance between the mobile station and the base station is large. (D) Poor location for mobile station installation (E) Speed change of mobile station (F) The mobile station determines if the power received on the pilot channel is forward Low on the link (G) E_c/ N_oIs low, on a traffic channel divided by the total received power or Energy per chip on any of the pilot channels (H) Decoder distance such as symbol distance is high Contains.   Conversely, the transmission power of base station 50 should be reduced. Some of the ways to decide (A) The characteristic response of the mobile station to the base station is Low frame error rate (B) The mobile station detects that the received power is high on the forward link (C) The distance between the mobile station and the base station is small. (D) The location of the mobile station is sufficient (E) Mobile station has high received power on forward link pilot channel Detect that (F) High decoder distance such as symbol distance Including that.   Base station 80 detects need to modify forward link transmit power Then, the control processor 58 sends a signal specifying the corrected transmission power to the transmitter. (TMTR). The modified output signal eliminates the need to increase or decrease the transmit power. The output signal may simply be indicated or the modified output signal indicates the amount by which to change the signal output Alternatively, the modified output signal may be an absolute signal output level. Repair In response to the corrected output level signal, the transmitter 64 will determine all of the corrected output levels. Supply transmission.   The data source 60 requests information of a modem, a facsimile or a voice signal. It should be noted that you can do it. The data source 60 transmits the frame during transmission. It may be a variable rate source that changes its transmission rate based on The speed may be changed only by the command. In an exemplary embodiment, the data The source is a variable speed vocoder. Before design and implementation of variable speed speech vocoder No. 08 / 004,484. Has been described. The output from data source 60 is encoded by encoder 62. The input of the traffic modulator 63 for modulation and the input of the transmitter 64 It is. The input of the pilot modulator 65 is also a synchronous pilot signal for transmission. It is.   The need for transmit power modification may be any of the conditions listed above. Alternatively, it can be indicated by any combination of these states. Output control Law is based on location-related effects such as distance or mobile station location External signal (LOCATION) indicating the installation location is controlled by the base station 50. It is supplied to the control processor 58. The distance status is detected by the base station 50. Can be issued. In another embodiment, the distance condition is Therefore, it can be detected and transmitted to the base station 50. Depending on the detected distance condition The control processor 58 of the base station 50 determines the transmission power of the transmitter 64. Generate a control signal that corrects   In a closed loop power control implementation, the power control signal is Supplied to the station 50. The mobile station 30 determines Or, alternatively, in response to the detection of a frame error or other method described above. The force control signal can be determined. The invention is equally applicable to any link property element.   If the link characteristic element used is the received power, The signal from the base station 50 received by the mobile station 30 is A power indication is provided to a receiver (RCVR) 42 which provides the control processor 46 with a force indication. . If the link characteristic used is the detection of a frame error, the receiver 42 Down-converts and amplifies the signal that supplies the received signal to the traffic demodulator. A pilot signal is provided to provide a traffic signal for coherent demodulation. If accompanying, the received signal demodulates the signal according to the pilot demodulation format, and Demodulator 45 which supplies a traffic demodulator with a traffic signal. Is also supplied. The traffic demodulator 43 is a traffic demodulator. Data format To demodulate the received signal. In the exemplary embodiment, traffic demodulator 4 3 and the pilot demodulator 45 are designed in US Pat. No. 01,307 and US Pat. No. 5,103,459. A spread spectrum demodulator. The traffic demodulator 43 is The tone signal is supplied to the decoder 44. In a first exemplary embodiment, the decoder 44 Performs error detection decoding and determines if an error has occurred. Viterbit Error detection / correction decoders, such as Reris decoders, are well known in the art. . In another embodiment, decoder 44 decodes the demodulated signal and then decodes the decoded signal. Re-encode the signal. Decoder 44 then compares the re-encoded signal with the demodulated signal. And obtain an estimate of the channel symbol error rate. The decoder 44 has an approximate channel record. A signal indicating the signal error rate is supplied to the control processor 46.   The control processor 46 receives or estimates the received power, usually called the link characteristic element. The channel symbol error rate may be fixed or variable. A threshold or a set of thresholds. Then, the control processor 46 Output control information is transferred to the encoder 34 or an output control encoder (PCC ENC). 47 is supplied. Output control signal should be encoded in the data frame If, the output control data is provided to the encoder. This method uses All frames should be processed before sending power control data and then output The encoded traffic data including the control data is transmitted through the demodulator 35 Machine (TMTR). In other embodiments, the output control data Data may simply overwrite part of the data frame or transmit It may be arranged at a predetermined vacant position of the frame. Output control data is trough If overwriting the data, this is It can be corrected by the directional error correction technology.   In an execution that processes all frames of data before supplying output control data, The delay of waiting for all frames to be processed is undesirable in fast fade conditions. Substitute Example is when the output control data breaks up to the output data stream That is, the output control data is directly supplied to the modulator 35 which can perform the control. Output system If the control data is transmitted without error correction coding, the control processor 46 outputs The force control data is output directly to the modulator 35. Error correction coding is output control If desired for the data, control processor 46 outputs output control data for output triggering. Output control encoder 4 for encoding output control data irrespective of traffic data 7 is output. The output control encoder 47 includes an encoded output control signal and a data source. The output traffic supplied to the modulator 35 from the An encoded output control signal is supplied to a modulator 35 which combines the data with the encoded data. Submit The device 36 up-converts and amplifies this signal and converts this signal to the base station 5 0 to the antenna 38 for transmission.   The transmission signal is received by the antenna 52 of the base station 50, and this signal is The data is supplied to a data receiver (RCVR) 54 which is down-converted and amplified. Receiving The device 54 supplies the received signal to a demodulator 55 for demodulating the received signal. Example In a typical embodiment, the demodulator 55 is similar to the aforementioned U.S. Pat. No. 4,901,30. 7 and US Pat. No. 5,103,459. It is a scatter demodulator. Power control data is within the frame of traffic data If encoded, traffic power control data is provided to decoder 56 . The decoder 56 decodes this signal and converts the output control signal to traffic data. Separate from   On the other hand, output control data is not encoded in every frame of data, but rather Demodulator 55 demodulates the signal if And extract output control data from the input data stream. Output control signal is encoded If not, demodulator 55 sends output control data to control processor 58. Supply directly. If the output control signal is encoded, the demodulator 55 The decoded output control data is supplied to an output control decoder (PC DEC) 100. The output control decoder 100 decodes the output control data and outputs the decoded output control data. Is supplied to the control processor 58. Output control signal is modified according to the output control signal Tx power level The control signal shown is supplied to a control processor 58 which supplies a transmitter 64.   One of the unique problems with closed-loop power control systems is the open-loop power control signal. Has a relatively slow response time. For example, in a closed loop power control system , The base station 50 moves the frame with insufficient transmission power to the moving station. The mobile station 30 receives the frame, decodes it, and Output control messages indicating frame errors Create a message, then output the message, decode the frame and output control Base station 5 for extracting messages and adjusting the transmission power of transmitter 64 Send to 0. In the exemplary embodiment, this means that the correction is Generate four frame time logs before they can be identified. Therefore, the propagation path is useless , Then four consecutive frames would have the frame at adjusted frame energy Sent with insufficient frame energy before being sent. Within this delay period, The fading condition is substantially improved or worsened.   The following is a method to improve the responsiveness of a closed power control system. Departure In the first embodiment, the base station is in the worst case. This is The transport path has deteriorated during the four frame delay periods. Answering, bases The station increases the transmission energy to this user by a relatively large amount ΔE Therefore, even if the propagation path deteriorates for a while, this adjustment More than enough to ensure that the frames are received correctly. Spectrum expansion In an exemplary embodiment of a distributed communication system, the output of this With the increase, less power is available to other users sharing the forward link Available. Thus, base station transmitters will continue to increase initially The transmission energy for this user is rapidly reduced. In an exemplary embodiment, , The base station increases the energy by a fixed amount ΔE, Hold, the increase in transmit energy is effective, and then as shown in FIG. Verify that the transmit energy is reduced according to a predetermined piecewise linear function.   FIG. 3 shows a plot of transmitted energy (E) versus time. At point A, The station 50 transmits in response to a power adjustment request from the mobile station 30. Increase energy. The base station 50 calculates the transmission energy of the point B. Increase by an amount ΔE. The base station 50 transmits the transmission The transmission energy at point C for a predetermined number of frames. Decrease at a rapidly decreasing rate. At point C, exit from mobile station 30 The power control message still indicates the extra transmit energy and the base station 50 continues to reduce the transmitted energy, however, the rate of reduction is more small. On the other hand, the base station 50 moves to the point D for a predetermined number of frames. It decreases at an intermediate speed of this decrease. At point D, the rate of decrease is Either a certain minimum value is reached or the base station Transmission energy until the station 30 is again notified by another power adjustment request. Is again reduced to a final reduction speed which continues to be reduced. This power adjustment is provided Continue for the duration of the service.   In the improved embodiment, the pattern of the input output control message is transmitted by any chance. If the power indicates unnecessarily high, the transmit power is reduced by a larger amount. It can be reduced. An output control message indicating a receive frame error has been received. Every time the timer is reset. Other output control messages indicating a receive frame error If the timer expires without receiving a message, the control processor 58 , Instructs the transmitter 64 to stop transmitting output frames with a larger difference than the incremental decrease You.   The base station 50 receives the reception power control information after the transmission energy is increased. Sent with information that there is a delay before the information is reflected in changes in the forward link transmit power Perform energy adjustment. If the propagation channel suddenly deteriorates, Station 50 receives a series of continuous power control requests and the power adjustment requests are forward link There is a delay before responding to a change in transmitted energy. During this delay period, the base station Options 50 each increase the transmit energy to receive the power adjustment request. Should not continue. This is the output The level is held constant for a predetermined delay period as shown in the period following point B in FIG. That is why.   It should also be noted that errors in mobile communication systems fall into two categories. You. These errors are random and these errors are the result of changes in the propagation path. It is. In the exemplary embodiment, base station 50 receives the power adjustment request The base station 50 increases the transmit power by ΔE as described above. I do. The base station 50 then ignores the power adjustment request and waits for the delay period. Hold the same increased output level. In another embodiment, the base station 50 comprises: Adjust the output according to each output control message. However, smaller changes Is commonly used. This minimizes the effects of random errors.   Changes in the characteristics of the propagation path between the mobile station 30 and the base station 50 One of the major effects that can lead to This is the movement of the mobile station 30 away from the base station. Move Station 30 changes base station 50 to mobile station speed The mobile station 30 can provide information indicating that The speed can actually be realized for the station 50. Mobile station If the mobile station simply gives an indication that the speed of the Supply this information as an output adjustment request signal in anticipating changes in the characteristics of the transport route .   In a first embodiment, the mobile station 30 is a vehicle tachometer or a mobile tachometer. By providing a sensor that operates in response to a signal from a speedometer (not shown). Thus, a speed change can be detected. In another embodiment, the mobile station 30 is Mobile station / base station due to change in received signal from station 50 It determines either the change in relative speed or the change in absolute speed. Moving The station 30 can detect a change in speed or the base station 50 By measuring the Doppler effect of the input signal from Other implementations In the base state, the base station 50 is a speed mobile station / base station. Change in relative change Detection or measurement of the Doppler effect of the input signal from the mobile station 30. The absolute relative velocity can also be measured by determining   The traffic signal provided by the base station 50 With a pilot signal to achieve coherent demodulation of the digital signal. Pyro The use of a reset signal is disclosed in U.S. Pat. Nos. 4,901,307 and 5,103. No. 4,459, the mobile station 30 detects changes in relative speed, pilot signals. The Doppler shift of the signal can be detected alternatively.   In a preferred embodiment, the base station 50 operates at the speed of the mobile station 30. Knowing the degree, and changing the value of the incremental change in transmitted energy, ΔE follows this rate change. The determination of the value of ΔE can be made algorithmically or by the control processor 4. 6 lookup tables.   Base station 50 transmits a pilot signal along with a traffic signal , The pilot signal is transmitted at a predetermined bit rate known at the base station 30. It can be regarded as a traffic signal that carries a trim. Mobile station 30 indicates that the mobile station 30 performs coherent demodulation of the traffic channel. In order to obtain timing information that can be Demodulate the channel. Because the same propagated and received traffic signals If not signal strength, pilot and traffic channels are similar It is because it is provided by what. Pyro instead of traffic channel Base station by generating an output control signal on the To reduce the delay between receiving the signal transmitted from the Can be.   Referring to FIG. 2, a pilot demodulator 65 transmits a pilot signal. And the transmitter 64 of the base station 50 transmits the traffic signal Both are connected to an antenna 52 for broadcasting a pilot signal to the mobile station 30. Supply. The transmission signal is received by the antenna 38 and supplied to the receiver 42. Receiving The transceiver 42 down-converts and amplifies the pilot signal and transmits the received pilot signal. It is supplied to the pilot demodulator 45. This pilot demodulator 45 generates an estimate of the characteristics of the demodulated pilot signal. Are supplied to the control processor 46. Control processor 46 Generates an output control signal according to the estimated characteristics of the demodulated pilot signal. Proceed like.   Forward link broadcast from base station 50 to mobile station 30 In transmission, minimizing transmit power while retaining modem performance is beneficial That is what. Exemplary Embodiment of Code Division Multiple Access (CDMA) Communication System In this case, this transmission power minimization is achieved by using the same output amplifier for other channels. Other users of the same frequency and nearby frequencies while leaving more output for And reduce interference to the system.   In an exemplary embodiment of a mobile communication system for variable rate transmission, Performance differences between different speeds can be significant. For example, given a frame error Of frames from the base station 50 needed to obtain the FER Transmit power levels can vary greatly between rates. This is shown in FIG. Have been. FIG. 4a shows normalization by frame error rate versus noise energy. Bit energy (E_b/ N_o).   In the exemplary embodiment, the data is transmitted in frames. The present invention It is equally applicable to continuous transmission systems. The invention has four possible rates Is shown in an exemplary implementation of a variable rate communication system. In an exemplary embodiment, These rates are full rate, 1/2 rate, 1/4 rate and 1/8 rate. Shown as The present invention is applicable to any possible rate that supports any number of possible rates. It is equally applicable to variable rate communication systems.   FIG. 4a shows that the bit energy required for a given frame error rate is the highest Full rate frames requiring bit energy and lowest bit energy Strongly depends on the speed of the frame with the 1/8 rate frame that requires the amount Which indicates that. Therefore, the present invention requires a desired characteristic level. The transmit power is the minimum required between each rate. Set separately to take advantage of output differences. In addition, the perception of the characteristic The effect of system errors depends on the speed of the frame, so different rates may require Noh may also be different. For example, a higher frame error rate is It may be more acceptable for a 1/8 rate frame than for a full frame.   FIG. 4b shows that the bit energy required for the desired performance level is time and state of use. It is provided to show that it can be changed by state. For example, move If the station 30 is moving with respect to the base station 50, The bit energy is higher than if the mobile station 30 was still stationary. Much varies between speeds. FIG. 4b shows a waterfall when the mobile station 30 is moving. Is provided to illustrate the curve. In fact, FIG. The same mobile station communicating with the same base station 50 except that it is not mobile It is provided to show the waterfall curve for station 30. The present invention provides It is this that provides the means to change the level of the difference between the transmit powers at different rates Because of fluctuations.   The present invention discloses various ways of applying fast power control on the forward link. Use the required output difference. Each of these methods is compatible with any of the power control techniques described above. It should be noted that they can be used together.   Furthermore, the present invention provides a method for exploiting the difference between desired performance at different rates. Can also be applied. For example, a 1% frame error rate means that a full rate frame Find the full rate frame to be the most perceptually important frame Can be. However, a frame error rate of 4% is mainly used for background noise information. It may be possible to accept １ ／ rate frames to convey. Previous departure The disclosed method is used to determine the need to increase or decrease the transmit power. These differences can easily be accounted for by simply adjusting the threshold You.   A general output control method is to generate a frame rate from the mobile station 30. Adjust the transmission power level based on the feedback. But However, these methods are similar to those based on physical location or received power. The same can be applied to any of the output control methods described above. In these exemplary embodiments Indicates whether the previous frame was received and decoded correctly, or Described as sending a frame characterization indicator that indicates if an error has occurred Have been. This system provides a frame error indication with just equal feedback The absence of a device can be attributed to the frame characteristics indicator that indicates the frame received correctly. Supplied by the mobile station 30 in the event of a frame error. It is equally applicable in communication systems.   In an exemplary embodiment, the frame quality indicator signal is Returned from the application 30. This frame quality indicator is base Corresponds to a frame previously transmitted from station 50. Base station The frame rate transmitted by the Called indicator rate. In the exemplary embodiment, base station 50 Is the frame rate at which it is transmitting and the mobile station Round trip delay from the transmission of the message to the mobile station 30 Generates a frame quality indicator signal, which is Since the time before sending back to the application 50 is known, the frame quality index Data rate is known. Further, the present invention provides a mobile station System that transmits frame rate readings along with the indicator signal The same applies.   First exemplary embodiment of method for exploiting differences in required power between frame rates Is referred to as a single loop fixed difference method in this specification. In this embodiment, 1 Two rates act as reference rates. The transmit power level for the reference rate is Actively tracked by the troll processor 58. Transmit power at other rates Is determined according to the transmission power at the reference rate.   The output level of each of the other rates is adjusted to the required level according to the level of the reference rate. Determined to maintain performance. Performance per frame is rate Irrespective of the performance of each frame. Feedback is equally significant regardless of the corresponding frame rate. Given and can be used indiscriminately when adjusting the reference rate.   In an exemplary implementation, the four possible rates (full rate, 1 / 2 rate, 1/4 rate, and 1/8 rate). In an exemplary embodiment, , The reference rate is the full rate, and the output level of the half rate is the full rate. The output level is set to 1 dB below the output level. . Set to 5dB below, 1/8 rate is 1.8dB below the output level at full rate Is set. The control processor 58 moves as described below. Output for each rate based on feedback from station 30 Determine the level and provide this information to the variable gain transmitter 64. Transmitter 64 Set the transmission power for the output frame according to the Set. The transmitter 64 has a variable rate data source indicating the rate of the output frame. A signal from 60 is provided.   FIG. 5 shows the control processor as the execution of the single-loop fixed difference output control method. 4 illustrates an exemplary embodiment of a sa 58. Frame received from mobile station 30 The quality indicator (FQI) message is sent to the gain adjustment selector 102. Provided. The gain adjustment selector 102 is a microprocessor known in the art, Executable by programming microcontroller or logic array Wear.   In an exemplary embodiment, the FQI message has one of two possible values. I do. Its value is 0, indicating correct reception of the frame by the mobile station 30, or Alternatively, it is 1 indicating that a frame error has occurred. In an exemplary embodiment, the gain The adjustment selector 102 outputs a gain adjustment value selected according to the following equation (1). Do: In the equation, GA is a gain adjustment output by the gain adjustment selector 102.   These numbers are chosen based on an acceptable frame error rate of 1% . This is because the decrease: increase ratio is 1: 100. These values are purely illustrative And depends on the implementation and the desired performance of the system.   Further, the present invention provides more information than the feedback can be contained in one bit of information. It should be noted that the same applies to the specified system. In these cases In some cases, the gain adjustment value can have more than one possible value, which is Will be selected depending on the value of the sage. FQI message was previously filed in the application It may be one of the indicators listed above.   The gain adjustment (GA) value is provided to one input of summing element 104. Additive element The value provided to the other input of 104 is the current transmit power level at the reference rate. You. In the exemplary embodiment, the reference rate is a full rate. Of the adder 104 The output is the adjusted reference rate transmit power level. This value is variable gain transmission The variable gain transmitter 64 provides a full rate frame according to this value. Will amplify the   The output of the adder 104 is sent back to the input of the delay component 106. Exemplary In a preferred embodiment, the delay 106 is the frame quality indicator message Delay input to summing element 104 by the time of separate arrival, exemplary embodiment Then, the delay is 20 ms. Such delayed execution is known in the art.   The transmission power level for other rates is the output level of the reference rate transmission power level. It is determined based on. The full rate transmission level is provided to the dependent transmission power calculator 107. The subordinate transmission power calculator 107 performs the processing according to a predetermined calculation format. 1/2 rate, 1/4 rate, 1/8 rate according to the transmission rate To determine the transmission power level. In an exemplary embodiment, the dependent transmit power calculation The instrument 107 is a microprocessor, microcontroller, as is known in the art. Printer or logical array Performed by gramming.   In an exemplary embodiment of the dependent transmit power calculator 107, a 1/2 rate, 1/4 rate Rate, 1/8 rate transmit power level is fixed difference from full rate transmit power It is. Thus, in an exemplary embodiment, the full rate transmit power level is added Provided at the input of element 108. Δ_1/2Is provided to the subtraction input of adder 108 Is done. In an exemplary embodiment, Δ_1/2Is equal to 1 dB. The addition element 108 The value output is the half rate transmit power, which in an exemplary embodiment is 1dB lower than the output level of the full rate frame. This value is The variable gain transmitter 64 is provided to Amplify the rate frame.   It should be noted that the practice of the present invention requires that operations be performed by addition. That is not. For example, typically a 1/2 rate transmit power is a full rate transmit power. 3dB lower than power. Thus, the 1/2 rate transmission power is equal to the full rate transmission power. Dividing full-rate transmit power by two, as opposed to subtracting 3 dB from power Can be calculated in absolute terms.   Similarly, a full rate transmit power level is provided to the summing input of summing element 110. You. The value of Δ１ ／ is provided to the subtraction input of summing element 110. Exemplary implementation Then, ΔΔ is equal to 1.5 dB. The value output by the adding element 110 is 1 / 2 rate transmission power. This value is provided to the variable gain transmitter 64 and Gain transmitter 64 amplifies the 1/4 rate frame according to this value.   Finally, the full rate transmit power level is provided to the summing input of summing element 112. You. The value of Δ１ ／ is provided to the subtraction input of summing element 112. Exemplary implementation Then, ΔΔ is equal to 1.8 dB. The value output by the adding element 112 is 1 / 8 rate transmit power, which is 1. 8 dB lower. This value is provided to the variable gain transmitter 64 and The transceiver 64 amplifies the 1/8 rate frame according to this value.   It should be noted that all delta values (Δ_1/2, Δ_1/4, Δ_1/8) Is purely for illustrative purposes and other values are equally applicable and It is expected.   Second exemplary embodiment of a method for exploiting differences in required power between frame rates Is referred to herein as a single-loop variable difference method. This exemplary embodiment Aims to keep the performance at each rate within each range. However However, the difference between the transmit power of the dependent rate and the reference rate depends on the individual rate. For example, information compiled by a running average of individual frame error rates Adapt based on information. Whether the performance for a rate other than the reference rate is the desired level As the power deviates, the output level difference from the reference level cancels the power departure. Is corrected as follows. If the performance of the reference rate degrades, all or some of the other rates The output level difference with respect to the port is corrected.   In an exemplary implementation, the control processor 58 determines the performance for each rate. (Eg, the number of frame erasures in the last 100 frames). For example, 1 If the / 8 rate performance drops below the desired performance level, the 1/8 rate output level The difference between the reference rate output levels is reduced, and the 1/8 rate output level is reduced to the reference output level. If lower than the bell, the 1/8 rate output level is effectively increased.   In the exemplary embodiment, data source 60 is a signal indicating the rate of the output frame. To the control processor 58 so that the control processor 58 determines the rate of the frame quality indicator message. FIG. Denotes a one-stage filter composed of elements 104 and 106. The present invention It can be applied to more complex cases, where the corrected full-rate transmit power is too high. One could rely on a plurality of full rate transmit power values generated earlier. like this The design and implementation of various digital filters are well known in the art, and are described in US Pat. No. 5,414,796.   In FIG. 6, the received frame quality indicator bits Is provided to the gain adjustment selector 200. Gain adjustment selectors are well known in the art. A microprocessor, microcontroller, or logical array Performed by programming. In an exemplary embodiment, the gain adjustment The selector 200 selects a gain adjustment value according to the above equation (1).   This gain adjustment value is provided to the summing input of summing element 202. Additive element 202 The input to the second input of is the current value of the reference rate transmit power level. In the exemplary embodiment, the reference rate is a full rate. Output of adder 202 Is the adjusted full rate transmit power. Full rate transmit power is variable gay The variable gain transmitter 64 outputs the signal according to this value. Amplify the full rate frame.   Further, the adjusted full rate transmit power value is sent back to delay component 201. In the exemplary embodiment, the delay 201 is the frame quality indicator message. The input to the summing element 202 is delayed by the time the In an embodiment, the delay is 20 ms. Such delayed execution is known in the art. You.   Demultiplexed received frame quality indicator message -204. Demultiplexer 204 is a frame quality index Frame quality indicator on one of the four outputs based on the indicator rate. Output a caterer message. The frame quality indicator rate is The frame quality indicator message is full A frame rate error (FER) counter 206 is provided. Fullley The FER counter 206 stores the full rate frames in a predetermined number of full rate frame transmissions. Track frame errors. The counter 206 uses a digital counter, Alternatively, it can be performed by a sliding window accumulator and its execution Are known in the art. In the exemplary embodiment, counter 206 has the last 10 Track the number of frame errors in a zero full rate frame.   If the frame quality indicator rate is 1/2 rate, Frame quality indicator message is 1/2 rate FER counter 208. Counter 208 is a predetermined number of previous 1/2 rate frames And track the frame error in as described above with respect to counter 206 above. , Can be run. Frame quality indicator rate is 1/4 If rate, the frame quality indicator message is 1/4 rate FER counter 210. The counter 210 has a predetermined number of previous ones. Tracking frame errors within a quarter rate frame and performing as described above it can. When the rate of the frame quality indicator is 1/8 rate , Frame quality indicator message is 1/8 rate FER counter -212. The counter 212 has a predetermined number of previous 1/8 rate frames. The frame errors in the system can be tracked and performed as described above.   Frame error rate from each counter 206, 208, 210, 212 The statistics table is provided to the delta calculator 214. Delta calculator 214 performs a predetermined calculation Different depending on the format, based on the value provided by the counter Value, Δ_1/2, Δ_1/4, And Δ_1/8To determine. For example, 1/2 rate frame rate If the error statistic is too high, the delta calculator 214_1/2And reduce the value by 1/2 If the rate output level is lower than the reference level, the transmission power of 1/8 rate frame -Effectively raise Typically, 1/2 rate transmit power is full rate transmit It will be 3dB below power.   Furthermore, each difference value depends on the frame error count from all counters Need not be. In an exemplary embodiment, Δ_1/2Value is 1/2 rate FER count Is based solely on the output of_1/4Is a 1/4 rate FER counter 210 based only on the output_1/8Is the full rate FER counter 2 It is determined based on both the 06 and 1/8 rate FER counter 212 outputs.   In an improved embodiment, each difference will also depend on the value of the full rate FER. U. In an improved embodiment, the full rate FER is above the threshold If it is, it will indicate that the full rate transmit power is increasing. U. Since the transmission power for other rates is determined depending on the full rate transmission power, The fact that the full-rate transmission power is about to increase indicates that the full-rate FER value If this is apparent from the full rate FER counter 206 of the You. Increasing the difference value effectively reduces the transmit power at other rates. When the full-rate transmit power changes, the separately set rate Make them float with those values.   Delta calculator 214 provides three delta values, Δ_1/2, Δ_1/4, And Δ_1/8Output . The delta calculator 214 includes a microprocessor, a microcomputer, as is known in the art. Executed by programming a microcontroller or logical array Is done. These three delta values, Δ_1/2, Δ_1/4, And Δ_1/8Send full rate It is provided to the dependent rate calculator 215 along with the power. The dependent rate calculator 215 1/2 rate, 1/4 rate according to the input and the predetermined calculation format , And 1/8 rate transmission power. Dependent rate calculator 215 is implemented in the art. As is well known, a microprocessor, microcontroller, or logic Performed by programming the ray.   In an exemplary embodiment of the dependent rate calculator 215, three delta values, Δ_1/2, Δ_1/4, And Δ_1/8Supplies the subtraction inputs of each of the summing elements 216, 218, and 220. Provided. Full rate transmission on the summing inputs of summing elements 216, 218 and 220 Power levels are provided. Δ_1/2, Δ_1/4, And Δ_1/8Is the full rate output level. ベ ル, を rate, レ ー ト rate and full rate output level Occur. As described above, each of these values is provided to variable gain transmitter 64. , The variable gain transmitter 64 according to these values outputs the レ ー ト rate, Amplify 1/4 rate and 1/8 rate frames.   Third exemplary embodiment of a method for exploiting differences in required power between frame rates In this specification, a multi-loop output control method using one loop for each rate and Name. This method has one loop for each rate Except for this, it is the same as the single loop method described above. These loops are Are independent of each other in determining the transmission power level of the rate controlled by.   For example, a frame quality indicator of 1/8 rate frame When receiving the data message, it responds to this message and Changes are made directly to the transmit power level, but the output levels at the other three rates are No changes are made to the file. Thus, each of these feedback loops They only consider feedback information corresponding to frames of that rate.   In the exemplary embodiment, data source 60 indicates the rate of the frame being output. Signal to the control processor 58, whereby the control The processor 58 determines the rate of the frame quality indicator message .   Referring to FIG. 7, the frame quality indicator message is demultiplexed. Xar 400. Demultiplexer 400 provides frame quality Frame according to one of four outputs based on the rate of the indicator message Provide a quality indicator message.   If the frame quality indicator message rate is full rate , Frame quality indicator message, full rate gain adjustment selection Provided to the input of the unit 402. The selector 402 has a frame quality indicator. That increase or decrease the full-rate transmit power in response to Adjustment (GA_fUll) Output the value. In the embodiment, the selector 402 uses the following expression (2) ) To adjust the gain (GA_fUll) Select a value.   Here, the FQI message indicates that the frame by the mobile station 30 is normally transmitted. "0" indicating that the frame has been received and "0" indicating that a frame error has occurred Has one of two possible values of "1". Also, If the Ority Indicator message is deleted by the opposite link, The in-adjustment value is set to “0”.   Selector 402 (GA_fullThe gain adjustment value from ()) is Provided to The other summing input of the summing element 402 has the current of the full-rate transmission power. The current value is supplied. The adder 406 allows the adjusted full-rate transmission power. Output to the variable gain transmitter 64. Also, the adjusted full-rate transmission power value is Delay 404 is provided. Delay 404 is another frame quality indicator. Conditioned full-rate transmission to summing element 406 until data message is received. Delay the delivery of power.   If the frame quality indicator message is at half rate, The quality indicator message is a half rate gain adjustment selector 408 are provided for input. The selector 408 has a frame quality indicator. To increase or decrease half-rate transmit power in response to In adjustment (GA_half) Output the value. In the embodiment, the selector 408 uses the following equation ( 3) Gain adjustment (GA_half) Choose a value:   Here, the FQI message is normally received by the mobile station 30 in the frame. "0" indicating that the frame has been removed, and "1" indicating that a frame error has occurred. It has one of two possible values.   Selector 408 (GA_halfThe gain adjustment value from ()) is Provided to The other addition input of the addition element 410 has a transmission power of 1/2 rate. The current value is supplied. The summing element 410 has the adjusted transmission power of the 1/2 rate. Is output to the variable gain transmitter 64. In addition, the adjusted half-rate transmission power The value is provided to delay 412. The delay 412 is another frame quality index. Until you receive an indicator message Delay providing the regulated half rate transmit power to element 410.   If the frame quality indicator message is 1/4 rate, The frame quality indicator message is sent to the 1/4 rate gain adjustment selector 4 Provided on 14 inputs. Selector 414 is the frame quality indicator Gain to increase or decrease 1/4 rate transmission power in response to messages Adjustment (GA_quarter) Output the value. In the embodiment, the selector 414 determines the following equation (4) ) To adjust the gain (GA_quarter) Choose a value:   Here, the FQI message is normally received by the mobile station 30 in the frame. "0" indicating that the frame has been removed, and "1" indicating that a frame error has occurred. It has one of two possible values.   Selector 414 (GA_quarterThe gain adjustment value from ()) is Provided to the power. The other addition input of the addition element 416 has a transmission power of 1/4 rate Is supplied. The adder 416 has the adjusted 1/4 rate transmission power. Is output to the variable gain transmitter 64. In addition, the adjusted transmission rate of 1/4 rate The word value is provided to delay 418. The delay 412 is another frame quality in Until receiving the indicator message, the adjusted 1/4 signal to summing element 416 is received. Delay the delivery of the transmission power of the port.   If the frame quality indicator message is 1/8 rate, The frame quality indicator message is sent to the 1/8 rate gain adjustment selector 4 20 inputs are provided. Selector 420 is the frame quality indicator Gain to increase or decrease 1/8 rate transmission power in response to messages Adjustment (GA_eighth) Output the value. In the embodiment, the selector 420 determines the following equation (5). Gain adjustment (GA_eighth) Choose a value:   Here, the FQI message is normally received by the mobile station 30 in the frame. "0" indicating that the frame has been removed, and "1" indicating that a frame error has occurred. It has one of two possible values.   Selector 420 (GA_eighth) Is the sum of the gain adjustment values Provided to The other addition input of the addition element 422 has a transmission power of 1/8 rate. The current value is supplied. The adder 422 has the adjusted 1/8 rate transmission power. Is output to the variable gain transmitter 64. In addition, the adjusted 1/8 rate transmission power The value is provided to delay 424. Delay 424 is another frame quality index. The adjusted 1/8 rate signal to summing element 422 is received until an indicator message is received. Delay in the transmission of transmission power.   As described above, the variable gain transmitter 64 controls the transmission power determined as described above. Amplify outgoing frames by level.   A fourth embodiment of a method that takes advantage of the required power difference between rates is This is a multi-loop having one loop for frequency rate output control. This method Single loop except there is one loop for each more frequency rate Similar to the method. These loops alternate the transmit power level at the rate being controlled. Decisions are made independently. Frames for frames of a certain rate that are tracked The quality indicator message is used by the loop for that rate only You. The output level for the rate without loop is the output of the rate being tracked Determined depending on the level. The difference between these tracked rates is fixed And adaptive.   In an embodiment, full rate frames and 1/8 rate frames are variable rate These are the two most likely frame rates in transmission. These two rates Is tracked by two independent loops to determine their respective output levels You. Half and quarter rate output levels are now full It is obtained from the 及 び and １ ／ rates. For example, 1/4 rate output is full rate Half the distance between the output level and the 1/8 rate output level, The output level is between the 1/8 rate output level and the full rate output level. .   In an embodiment, data source 60 provides a control that indicates the rate of outgoing frames. To the processor 58. Control processor 58 is a new The transmission power level is calculated and the information is provided to the transmitter 64.   Referring to FIG. 8, the frame quality indicator message is demultiplexed. Xer 450. Demultiplexer 450 provides frame quality Depending on the output selected by the rate of the indicator message, the frame Provide the message.   If the frame quality indicator message rate is full rate , Frame quality indicator message by demultiplexer 450 Is provided to full rate gain adjustment selector 452. In this embodiment, the full As the rate gain adjustment selector 452, a microprocessor well-known in the art is used. By programming a processor, microcontroller or logic array May be realized. The full rate gain adjustment selector 452 complies with the following equation (6). Is the full rate gain adjustment (GA_full) Choose a value:   Here, the FQI message is normally received by the mobile station 30 in the frame. "0" indicating that the frame has been removed, and "1" indicating that a frame error has occurred. It has one of two possible values.   Selected full rate gain adjustment (GA_full) Value is the first addition input of the addition element 456 Provided to the power. The second input to summing element 456 is provided by delay element 458. And the current full-rate transmission power. Delay element 458 is a full delay The frame quality indicator message Delay current full rate transmit power until received. Adder element 456 is full Adds the rate gain adjustment to the current full-rate transmit power and adjusts the adjusted full-rate The transmission power of the port. The adjusted full-rate transmit power is applied to this signal. Accordingly, it is provided to a variable gain transmitter 64 which amplifies the full rate frame.   If the frame quality indicator message is at full rate, the switch H is closed, and the calculated rate transmission power is added to the addition input of the addition element 457. Provided to Δ is applied to the subtraction input of the adder 457._eighth, Fixed value, or Dell The value calculated by the data calculator 464 is provided, and the transmission power of the 1/8 rate is Calculate the value. The newly determined value is 1/8 that goes out according to this value. It is provided to a variable gain transmitter 64 that amplifies the rate frame.   If the frame quality indicator message rate is 1/8 rate If the frame quality indicator message is Selector 454 is provided. In this embodiment, the 1/8 rate gain adjustment selector 4 54 is a microprocessor or microcontroller well known in the art. It may be realized by programming a roller or a logic array. 1 / The 8 rate gain adjustment selector 454 calculates the 1/8 rate gain according to the following equation (7). Adjustment (GA_eighth) Choose a value:   Selected 1/8 rate gain adjustment (GA_eighth) Value is the first adder of adder 466. Provided to the arithmetic input.   A second input to summing element 466 is provided by delay element 464 and provides the current The transmission power becomes 1/8 rate. Delay element 454 is a 1/8 rate frame 1/8 rate transmission parameter only when a quality indicator message is received. Provides the current value of the word. The adder 466 displays the gain adjustment value of 1/8 rate. In addition to the existing 1/8 rate transmission power, a new 1 The transmission power of the 判断 rate is determined, and the transmission power of the ８ rate is determined according to this signal. The variable gain transmitter 64 amplifies the system.   If the frame quality indicator message is 1/8 rate, Switch 468 is closed, and the calculated 1/8 rate transmission power is Provided to the first summing input. The first addition input of the addition element 459 is Δ_full,Fixed value, Alternatively, the value calculated by the delta calculator 464 is provided, and the full-rate transmission Calculate the new value of the word. The full-rate transmit power value is calculated according to this value. A variable gain transmitter 64 is provided to amplify some full rate frames.   In the first embodiment, the transmission power values of the half and quarter rate frames are different. It is determined in a fixed way. In the first embodiment, the full-rate transmission power is added. Elements 470 and 472 are provided. In a different fixed embodiment, Δ_halfBut solid This is a fixed value, and this value is subtracted from the full-rate transmission power, and the transmission is performed at a 1/2 rate. Power is determined. The newly determined half-rate transmission power is To a variable gain transmitter 64 that amplifies the half rate frame that goes out according to the Provided.   Similarly, in different fixed embodiments, the full-rate transmit power is 72. The output of the adder 472 is a 1/4 rate transmission power. In a different fixed embodiment, Δ_quarterIs a fixed value and the full rate transmission This value is subtracted from the power to determine the 1/4 rate transmission power. This new The transmission power of the determined ４ rate is the パ ワ ー rate of the outgoing power according to this signal. It is provided to a variable gain transmitter 64 that amplifies the frame.   In an improved embodiment, the 1/2 rate transmission power is the full rate transmission power. It is determined according to the transmission power of the 1/8 rate. Implementation of this improved method In the embodiment, the transmission power of the レ ー ト rate is the transmission power of the full rate and the transmission power of the ８ rate. Is calculated as an intermediate output level of the transmission power of In an improved embodiment, The transmission power of the full rate and the transmission power of the 1/8 rate are calculated by the output level calculator 480. Provided to Calculator 480 calculates these According to the values, the transmission power of the 1/2 rate and the transmission power of the 1/4 rate are calculated. Value Δ_1/2And Δ_1/4Can be used in calculator 480, whether fixed or applicable , The transmission power of the 1/4 rate and the transmission power of the 1/2 rate calculated by the calculator 480. The transmission power is modified.   In another embodiment, the value Δ_1/2And Δ_1/4Is an applicable value. Variable different In some embodiments, the demultiplexer 450 includes a frame quality indicator. Frame quality index according to one of four outputs based on the rate of the Provide a caterer. If the frame quality indicator signal is perfect, The frame quality indicator signal has a full-rate frame error rate Frame 456 for the full rate frame as described above. Keep an average number of tracks. Frame quality indicator signal is half Minutes, the frame quality indicator signal is a 1/2 rate frame The error rate is supplied to the error rate counter 458 and, as described above, Keep track of the average number of frame errors for. Frame Quality Inn If the indicator signal is a quarter, the frame quality indicator signal is The frame error rate counter 460 of the quarter rate is supplied to the Maintain the average number of tracks of frame errors for quarter rate frames. If the frame quality indicator signal is 1/8, the frame quality The indicator signal is sent to a 1/8 rate frame error rate counter 462. Average number of frame errors supplied and for 1/8 rate frame as described above Keep track. Frames from counters 456, 458, 460 and 462 Are supplied to the delta calculator 481. Delta calculator 481 is provided by counters 456, 458, 460 and 462. Value Δ_1/2And Δ_1/4Judge. The delta calculator 481 By programming a processor, microcontroller or logic array Can be executed. The delta calculator 481 calculates the value Δ_1/2And Δ_1/4Each To the arithmetic elements 470 and 472. Adders 470 and 472 are From the transmission power of the_1/2And Δ_1/4Is subtracted and the transmission power of 1/2 rate is ー and レ ー ト rate transmission power are determined. These values are To the variable gain transmitter 64 which amplifies the 1/4 rate frame going out according to the signal. Provided.   In a fifth embodiment of the method that utilizes the required power difference between the rates, Mentioned as multi-loop with one loop per rate of light output control . The method is performed using a fixed or applicable weight. this The method has one loop for each rate and uses the total weight of that loop together It is similar to the single loop method except that it does These loops being independent. Because the feedback of a frame at a certain rate is only at that rate Track, while all other loops have their current level Fixed to the However, the actual transmit power level is determined with all loop outputs. Refused.   Referring to FIG. 9, the frame quality indicator is a demultiplexer 50. 0 is provided. The demultiplexer 500 has a frame quality index. Frame quality for one of the four outputs depending on the rate of the data message Provide an indicator signal.   If the frame quality rate is the full rate, the demultiplexer 500 Frame rate indicator message in the rate gain adjustment selector 502 Output. The gain adjustment selector 502 adjusts the gain according to the following equation (8). GA_full) Choose a value:   This gain adjustment value is provided to the adding element 510. Selectors 502, 504, Each of 506 and 508 is a microprocessor, microcontroller Or by programming the logic array Is also good.   The second summing input of the summing element 510 is The previously calculated summing element 510 provided by the delay element 514 via 2 Is the output of Frame quality indicator message rate is maximum Immediately, delay element 514 provides the previous output of summing element 510. .   When the loop value becomes “stale”, the input to the adder 510 is reset. A multiplexer 512 is optionally provided for refreshing. You That is, the value of the output from summing element 510 is equal to the current maximum rate required. The transmission power is unacceptably different . In this embodiment, the value from summing element 510 is the maximum rate transmission power. Rather, it is a coefficient used to calculate the maximum rate transmission power.   The output of summing element 510 is provided to a first input of multiplier 518. Multiplier 5 A second input of 18 is for calculation of a reference rate by the composite reference calculator 520, The output of the addition element 510 depends on the significance of the output value of the addition element 510. Weight value W for weighting force_fullIt is. In a first preferred embodiment, Limited value W_fullIs a fixed value determined in advance. In another embodiment, Limited value W_fullIs determined by weighting factor calculator 516 based on a set of parameters Variable value. Of parameters that may be used by weight calculator 516 Examples include frame error statistics, the frequency of frames at this rate, etc. is there. The value output by multiplier 518 is provided to composite reference calculator 520. You.   If the frame quality indicator rate is 1/2 rate, The multiplexer 500 converts the frame quality indicator message into 1 / Output to the two-rate gain adjustment selector 504. This frame quality indie In accordance with the indicator, the gain adjustment selector 504 outputs a gain In adjustment value (GA_half) Is output.   This gain adjustment value GA_halfIs provided to the summing element 522. Adder 522 Of the delay element 52 via an optional multiplexer 524. 6 provided. When the loop value becomes “invalid”, the Multiplexer 524 is provided as an option to refresh the input Is done. Until the next 1/2 rate frame quality indicator is received , Delay element 526 delays providing the output of summing element 522.   The output of summing element 522 is provided to a first input of multiplier 530. Multiplier 5 The second input of 30 is for calculation of a reference rate by the composite reference calculator 520: Weighting the output of the addition element 522 according to the significance of the output value of the addition element 522 Weight value Whalf. In the first preferred embodiment, the weight value Whal f is a fixed value. In another embodiment, the weight value W_halfIs a set of parameters Is a variable value determined by the weight calculator 528 based on the data. Weight calculator 5 Examples of parameters that may be used by 28 include frame error statistics , The frequency of the frame at this rate, and so on. Output by multiplier 530. The value provided is provided to the composite reference calculator 520.   If the frame quality indicator rate is 1/4 rate, The multiplexer 500 converts the frame quality indicator message into 1 / Output to the 4-rate gain adjustment selector 506. This frame quality indie According to the indicator, the gain adjustment selector 506 determines the gain based on the following equation (10). Adjustment value (GA_quarter) Is output.   This gain adjustment value GA_quarterIs provided to a first input of summing element 532 . A second summing input of summing element 532 is provided via optional multiplexer 534. Provided by delay element 536. Added when the loop value becomes “invalid” To refresh the input to arithmetic element 532 A tipplexer 534 is optionally provided. Next 1/4 rate frame Until the indicator is received, the delay element 536 Delay providing output.   The output of summing element 532 is provided to a first input of multiplier 540. Multiplier 5 The second input of 32 is for calculation of a reference rate by the composite reference calculator 520: Weighting the output of the addition element 532 according to the significance of the output value of the addition element 532 Weight value W_quarterIt is. Complex reference calculator 520 is well known in the art. Microprocessor, microcontroller, or logic It may be realized by programming a query array. First preferred In the embodiment, the weight value W_quarterIs a fixed value. In another embodiment Is the weight value W_quarterIs calculated by the weight calculator 538 based on a set of parameters. It is a variable value determined by Parameters that may be used by weight calculator 538 Examples of data include frame error statistics, frequency of frames at this rate, and so on. The value output by multiplier 540 is provided to composite criterion calculator 520. Provided.   If the frame quality indicator rate is 1/8 rate frame If so, the demultiplexer 500 sets the frame quality indicator to 1/8 Output to the rate gain adjustment selector 508. This frame quality indike The gain adjustment selector 508 determines the gain based on the following equation (11). Adjustment value (GA_eighth) Is output.   The gain adjustment value is provided to the first input of summing element 542. The second of the adder 542 The sum of the eyes is input through optional multiplexer 544 to delay element 5 Given by 46. The multiplexer 544 causes the loop value to become “stale”. It is optionally provided to update the input to the adder 542 in the event that this occurs. Delay element 546 is the next eighth frame. Delay of the output of the summing element 542 until the quality indicator is received. Let me.   The output of summing element 542 is provided for the first input of multiplier 550. Multiplier 5 The second input of 50 is used by the composite reference rate calculator 520 to calculate the reference rate. A weighing value (W) for weighing the output of the adding element 542 according to the magnitude of the value._{eigh th} ). In the first exemplary embodiment, the weighed value (W_eighth) Is a fixed value is there. In another embodiment, the weighed value (W_eighth) According to a set of parameters It is a variable value measured by the weighing calculator 548. By weighing calculator 548 Examples of parameters that may be used are frame error statistics, this rate Frame frequency, etc. The output of the value by the multiplier 550 is the reference calculator 5 20 given.   Synthetic reference calculator 520 follows the output of multipliers 518, 530, 540 and 550. To determine the value of the reference rate. In the illustrated embodiment, the reference rate is a full rate. The reference calculator 520 releases the full rate transmit power according to this value. It outputs to the variable gain transmitter 64 which amplifies the full rate frame for transmission.   The full rate transmission power is provided to the dependent transmission power calculator 561. Obedience The transmission power calculator 561 calculates the の rate, レ ー ト rate, and ８ rate. Calculate the transmit power level according to a predefined calculation style and full rate transmit power . In an improved embodiment, the dependent transmit power calculator 561 is fixed or variable. It works by adding different values that can be used.   In an exemplary embodiment of the dependent transmit power calculator 561, the 1/2 rate, 1 The transmission power of rate and １ ／ rate is △_1/2, △_1/4, And △_1/8The full It is measured by simply subtracting from the rate transmit power. Dependent transmit power In the exemplary embodiment of calculator 561, the full rate transmit power is 62, 564, and 566.   The subtraction input of the adding element 562 is given by a value of △ half. Output of adder 562 The power is applied to the variable gain of the variable gain transmitter 64, which broadcasts according to this value. Amplify a half rate frame for use. The value △ is input to the subtraction input of the addition element 564. 1/4 is given. The output of the adder 564 is a 1/4 rate transmit power, This is provided to the variable gain transmitter 64, which, according to this value, has a ４ Amplify the rate frame. The subtraction input of the adder 566 is_1/8Rate is given available. The output of the adder 566 is a 1/8 signal supplied to the variable gain transmitter 64. Is the transmit power of the rate, which is 1/8 rate frame for broadcast according to this value. Amplify the system.   In a first exemplary embodiment, △_1/2, △_1/4, And △_1/8Is a fixed value. this In another alternative embodiment,_1/2, △_1/4, And △_1/8Is variable. Variable difference In another exemplary embodiment, the demultiplexer 500 is based on the value of the frame rate signal. And one of the four outputs is provided with a frame quality indicator.   If the frame quality indicator message is at full rate, Frame quality indicator message To the error rate counter 552 which keeps track of the error rate You. If the frame quality indicator message is at 1/2 rate For example, the message of the frame quality indicator is A half rate frame error that holds a frame error rate track To the rate counter 556. If the frame quality indicator If the message is a quarter rate, the frame quality indicator message The message holds a track with a frame error rate of 1/4 rate frame. The error rate counter 558 of the 1/4 rate frame. If fre If the frame quality indicator message is 1/8 rate, the frame The quality indicator message is converted to a frame error of 1/8 rate frame. Holding a truck It is provided to an error rate counter 560 for a 1/8 rate frame.   Frame error counts from counters 552, 556, 558 and 560 Is provided to the delta calculator 554. Delta calculator 554 is well known in the art. A microprocessor, microcontroller or logic array as described It can be completed by programming. Delta calculator 554 552, 556, 558 and 560_1/2, △_1/4, And △_1/8Determine the value of. The delta calculator 554_1/2, △_1/4, And △_1/8 Is applied to adders 562, 564 and 566, respectively. Adder 56 2, 564 and 566 are derived from the value of the full-rate transmission power._1/2, △_1/4, And △_{1 / 8} 調整 rate transmission power, １ ／ rate transmission power by subtracting the adjusted value of , And ８ rate transmission power, respectively. These values are sent 1 The レ ー ト rate, レ ー ト rate and ８ rate frames are generated according to these signals. It is provided to a variable gain transmitter 64 for amplification.   A sixth exemplary embodiment of the method utilizing the required power difference between rates will now be described. Is called a single loop, synthetic feedback. In the present embodiment, the gain adjustment selector May be either static or dynamic. Of each frame quality indicator When a message is received, the message is used to calculate the transmit power at the reference rate. Adjust directly.   In the illustrated example, data source 60 is the rate at which data is sent out frames. Is given to the control processor 58. Control processor 58 provides a signal to the transmitter 64 indicating the calculated transmit power level at the different rates. give. Variable gain transmitter 64 is transmitted according to the calculated transmit power level. Amplify the frame.   Referring to FIG. 10, the message of the frame quality indicator Is supplied to the demultiplexer 600. Of the frame quality indicator Depending on the rate of the message, the demultiplexer 600 will switch to one of the four outputs. Output frame quality message. If frame quality indie If the caterer message is at full rate Then, the frame quality message is sent to the full rate gain adjustment selector 602 Is output. In an exemplary embodiment, the full rate gain adjustment selector 602 includes: Gain adjustment (GA_full) Select and determine the signal. In the formula, FQI is a frame indicator message, and 1 indicates occurrence of a frame error. However, 0 indicates that there is no frame error.   Gain adjustment value, GA_full, Through a multiplexer 610. Give to the first input. The second input of the summing element 612 has a reference rate transmission power. Gives the current value of This is the full rate transmit power in the illustrated embodiment.   If the frame quality indicator message rate is 1/2 rate If so, the frame quality message is a 1/2 rate gain adjustment selector 60 4 is output. In the illustrated embodiment, the レ ー ト rate gain adjustment selector 604 is The gain adjustment value according to the following equation (13), (GA_half). In the formula, FQI is a frame indicator message, and 1 indicates occurrence of a frame error. However, 0 indicates that there is no frame error.   Gain adjustment value, GA_half, Through a multiplexer 610. Give to the first input. The second input of the summing element 612 has a reference rate transmission power. Gives the current value of   If the frame quality indicator message rate is 1/4 rate If so, the frame quality message is a 1/4 rate gain adjustment selector 60 6 is output. In the illustrated embodiment, the 1/4 rate The gain adjustment selector 606 calculates a gain adjustment value, (GA_{quar ter} ). In the formula, FQI is a frame indicator message, and 1 indicates occurrence of a frame error. However, 0 indicates that there is no frame error.   The gain adjustment value, GA quarter, is added to the adder 6 through the multiplexer 610. To twelve second inputs. A second input of summing element 612 has a reference rate transmission parameter. The current value of the power.   If the frame quality indicator message rate is 1/8 rate If so, the frame quality message goes to the 1/8 rate gain adjustment selector 608. Is forced. In an exemplary embodiment, the 1/8 rate gain adjustment selector 608 includes: Gain adjustment value, GA according to equation (15)_eighth, Select In the formula, FQI is a frame indicator message, and 1 indicates occurrence of a frame error. However, 0 indicates that there is no frame error.   Gain adjustment value, GA_eighth, Through a multiplexer 610. 2 to the first input. Selectors 602, 604, 606 and 608 are Microprocessor, microcontroller or logic as is well known Can be completed by programming the physical array.   After determining the reference rate transmission power, the transmission power of the remaining rates will be in accordance with that value Is determined. The full rate transmit power is provided to the dependent transmit power calculator 625. Which are 1/2 rate, 1/4 rate, and 1/8 The rate transmission power is calculated according to the full rate transmission power. Dependent transmit power In the first example completed product of calculator 625, △_1/2, △_1/4, And △_1/8Is solid It is a fixed value. Therefore, the full-rate transmit power is equal to summers 626, 628 and 63. 0 is provided. And △_1/2, △_1/4, And △_1/8Is the full rate transmit power １ ／ rate transmission power, ４ rate transmission power and And 1/8 rate transmission power.   In another embodiment,_1/2, △_1/4, And △_1/8Is variable. variable In an embodiment illustrating the difference between Frame quality index for one of the four outputs based on the value of the Give a caterer.   If the frame quality indicator message rate is full rate The frame quality indicator signal Counter 616, which is the frame error for the full rate frame. Keep track of rate. If frame quality indicator message If the bit rate is 1/2 rate, the frame quality indicator message Is provided in a 1/2 rate frame error rate counter 618, Keep track of frame error rate for two rate frames. If the frame quality indicator message rate is 1/4 rate The frame quality indicator signal to the 1/4 rate frame error level. A frame rate for a quarter rate frame. Keep track of rar rate. And if the frame quality indicator If the message rate is 1/8 rate, the frame quality indicator Data signal to a 1/8 rate frame error rate counter 622, which Keep track of frame error rate for 1/8 rate frame.   Frame error counts from counters 616, 618, 620 and 622 Is provided in the delta calculator 624. Delta calculator 624 counts According to the value given by the_1/2, △_1/4, And △_1/8Determine the value of. Dell The calculator 624 is a microprocessor, a microprocessor, as is well known in the art. Completing by programming the microcontroller or logic array Can be done. Delta calculator 624 provides the sum to elements 626, 628, and 630. Each_1/2, △_1/4, And △_1/8Gives the value of Adder elements 626, 628 and 6 30 is △_1/2, △_1/4, And △_1/8Is the calculated value of the full-rate transmit power ら rate transmission power, レ ー ト rate transmission power and 1 / The transmission power of eight rates is determined. These values are provided to the variable gain transmitter 64. This is the half rate, quarter rate, and And 1/8 rate frames are amplified.   By providing the above description of the preferred embodiment, one skilled in the art The invention has been made or able to be used. For these embodiments, Various changes will be readily apparent to those skilled in the art, and The general principles defined in this document apply to other embodiments without using the power of the invention. It can respond. Therefore, the present invention is not limited to the embodiments shown in this document. It is not intended to be consistent with the principles and novel features disclosed herein. Should be given the broadest scope.

[Procedure amendment] [Submission date] February 2, 1999 [Correction contents]                                The scope of the claims 1. Receiving means for receiving a frame quality message from a telecommunications station;   In response to the frame quality message, a reference rate transmission power level and At least one additional transmit power level according to the reference rate transmit power of And selecting a gain adjustment value in response to the frame quality message. Control processor means comprising adjustment adjustment selection means means;   Receiving the transmission power signal and transmitting the transmission power signal and the variable rate data signal; Variable gain transmission for amplifying said variable rate frame according to the rate of the frame Means,   Receiving the gain adjustment value and the previous reference rate transmission value; and Summing the previous reference rate transmission values to generate the reference rate transmission power level Transmission of a variable rate data frame, comprising: A device that controls power. 2. Receiving the reference rate transmission power level, receiving a fixed difference value, Summing the reference rate transmission power level and the fixed difference value to obtain the at least one Further comprising second summing means for determining an additional transmission power level of The device according to claim 1, characterized in that: 3. Variable difference calculator means for calculating a variable difference value and providing the variable difference value;   Receiving the reference rate transmission power level, receiving the variable difference value, Summing the reference rate transmission power level and the variable difference value to obtain the at least one Second summing means for determining an additional transmission power level. The apparatus according to claim 1, characterized in that: 4. A frame error rate monitor for determining at least one frame error rate value; A variable error calculator means, wherein the variable difference calculator means comprises at least one frame error. The apparatus of claim 3, responsive to a rate value. 5. The frame error rate means:   Receiving the frame quality indication message, and Therefore, a demultiplexer for outputting the frame quality message to a selected output device A chiplexer means,   Multiplexers coupled to each of the corresponding output devices of the demultiplexer means And means for counting the number of frame error rates. An apparatus according to claim 4. 6. Receiving means for receiving a frame quality message from a telecommunications station;   Provide a transmit power signal, a reference rate transmit power level and this reference rate Determining at least one additional transmission power level according to the transmission power level Control processor means responsive to said frame quality message, ,     Receive frame quality indication message and send multiple frequent rate transmission power levels A frequent rate transmission power calculation means for determining a value and providing the transmission power signal;     Receiving at least one of the plurality of frequent transmission power level values; At least one according to said at least one of the most frequent transmission power level values; Determining a residual transmission power level value to provide a residual transmission power signal; Control processor means comprising transmission power level calculator means;   Receiving the transmission power signal and transmitting the transmission power signal and the variable rate data; Variable gain that amplifies variable rate data frames according to the rate of the data frame Transmission of a variable rate data frame, comprising: Power control device. 7. The frequent transmission power calculator means:   Receiving a first set of selected frame quality messages; The reference rate transmission power level according to the selected frame quality message Reference rate calculator means for determining the   Receiving a second set of selected frame quality messages; At least one additional rate according to the selected frame quality message of the At least one additional frequent rate calculator means for determining the transmission power level value 7. The apparatus according to claim 6, comprising: 8. The at least one additional frequent rate calculator means is configured to transmit the reference rate transmission parameter; The apparatus of claim 7, responsive to a power level value. 9. The reference rate calculator means is configured to transmit the at least one additional rate transmission power level; The apparatus of claim 7, responsive to a bell value. 10. The reference rate calculator means:   Receiving the first set of selected frame quality messages; Reference rate gain adjustment according to set selected frame quality messages Gain adjustment selection device means for providing a value;   The reference rate transmission power level value according to the reference rate gain adjustment value And a reference rate transmission power adjusting means for correcting the The apparatus of claim 7. 11. The reference rate adjusting means:   By summing the reference rate gain adjustment value and the previous reference rate transmission power level value Summing means for setting the reference rate transmission power value;   Delay means for providing said previous reference rate transmission power level value. 11. The device according to claim 10, wherein: 12. The reference rate adjusting means further comprises at least one additional rate transmission path. Receiving at least one additional rate transmission according to a predetermined value. A second total means for adjusting a power level value to provide the reference rate transmit power value; The apparatus of claim 11, comprising a step. 13. Receiving means for receiving a frame quality message from a telecommunications station;   Provide a transmit power signal, a reference rate transmit power level and this reference rate Determining at least one additional transmission power level according to the transmission power level Control processor means for responding to the frame quality message     Receiving a first set of selected frame quality messages; A first transmit power level according to a first set of frame quality messages First calculator means for determining a value;     Receiving a second set of selected frame quality messages; At least one additional frame quality message according to a second set of frame quality messages. At least one additional calculator means for determining a transmission power level value;     The first transmission power level value and the at least one additional transmission power Receiving a level value, the first transmission power level value and the at least one Determine the reference rate transmission power level value according to the additional transmission power level value Control processor means comprising composite reference calculator means;   Receiving the transmission power signal and transmitting the transmission power signal and the variable rate data; Variable amplifying the variable rate data frame according to the rate of the data frame. Gain transmission means, and a variable-rate data frame. Transmission power control device. 14． Interposed between the at least one additional calculator means and the composite reference calculator means. At least one additional transmission power level according to a predetermined weighting scheme. And a weighting means for weighting the rule value. 13. The apparatus according to claim 13. 15. Receiving the at least one additional transmit power level value; Multiplier means for multiplying one additional transmission power level value by a weighting factor. 15. The apparatus of claim 14, wherein the mounting means is provided. 16. 16. The weighting factor is a predetermined fixed value. Equipment. 17． A weighting factor calculator for calculating the weighting value. 17. The device according to claim 16, wherein: 18. Wherein said weighting factor calculator means is responsive to frame error rate statistics. The device according to claim 17, characterized in that: 19. The weighting factor calculator means is responsive to a rate frequency value. The device according to claim 17. 20. Receiving the reference rate transmission power value; Accordingly, a residual rate transmission calculator for determining at least one additional transmission power value The device of claim 13, further comprising means.

──────────────────────────────────────────────────続 き Continuation of front page (81) Designated country EP (AT, BE, CH, DE, DK, ES, FI, FR, GB, GR, IE, IT, LU, MC, NL, PT, SE), OA (BF, BJ, CF, CG, CI, CM, GA, GN, ML, MR, NE, SN, TD, TG), AP (KE, LS, MW, SD, SZ, UG), UA (AM , AZ, BY, KG, KZ, MD, RU, TJ, TM), AL, AM, AT, AU, AZ, BA, BB, BG, BR, BY, CA, CH, CN, CU, CZ, DE, DK, EE, ES, FI, GB, GE, HU, IL, IS, JP, KE, KG, KP, KR, KZ, LC, LK, LR, LS, LT, LU, LV , MD, MG, MK, MN, MW, MX, NO, NZ, PL, PT, RO, RU, SD, SE, SG, SI, SK, TJ, TM, TR, TT, UA, UG, UG, VN (72) Inventor Chen, Tao La Cartera Street, San Diego, California, 92129, USA 8826 [continued abstract]

Claims (1)

[Claims] 1. Control processor means for providing a transmission power signal;       Receiving the transmission power signal; Variable gain that amplifies the variable rate frame according to the rate of the data frame Transmitter means, Controlling the transmission power of a variable rate data frame, characterized by comprising: apparatus. 2. Wherein said variable gain transmitter means is responsive to a frame rate signal. The device of claim 1, wherein 3. Further including a variable rate data source providing said variable rate data frame. The apparatus according to claim 1, wherein the apparatus is provided with: 4. The variable rate data source further provides a frame rate signal. The variable gain transmitter is responsive to the frame rate signal. 4. The device according to claim 3, wherein 5. The control processor means determines a reference rate transmission power level And at least one additional transmission power according to said reference rate transmission power. The apparatus according to claim 1, wherein the apparatus is for determining a level. 6. A receiver for receiving a frame quality message from a telecommunications station; And the control processor means outputs the frame quality message. 6. The device according to claim 5, wherein the device is responsive to the following. 7. The control processor means is adapted to transmit the frame quality message A gain adjustment selecting device for selecting a gain adjustment value in response to the 7. The device according to claim 6, wherein 8. Receiving the gain adjustment value; receiving a previous reference rate transmission value; The gain adjustment value and the previous reference rate transmission value are summed to obtain the reference rate transmission power. The apparatus of claim 7, further comprising summing means for leveling. 9. Receiving the reference rate transmission performance level, receiving a fixed difference value, Further, by summing the reference rate transmission power level and the fixed difference value, And further comprising a second summing means for determining one additional transmission power level. 9. The device according to claim 8, wherein: 10. Variable difference calculator means for calculating a variable difference value and also providing the variable difference value;       Receiving the reference rate transmission power level; receiving the variable difference value; Summing the reference rate transmission power level and the variable difference value to obtain at least one A second summing means for determining the two additional transmit power levels;         9. The apparatus according to claim 8, further comprising: 11. A frame error rate module for determining at least one frame error rate value; And the variable difference calculator means includes at least one frame. The apparatus of claim 10 responsive to a frame error rate value. 12. The frame error rate means:       Receiving the frame quality indication message; Outputting said frame quality message to a selected output device according to the gile rate Demultiplexer means;       A plurality of frame error rate counter means; Each of the rate counter means is a corresponding output device of the demultiplexer means. A plurality of frame error rate counter means coupled to the         The apparatus of claim 11, comprising: 13. Receiver means for receiving a frame quality message from a telecommunications station;       Receiving the frame quality indication message; Outputting said frame quality message to a selected output device according to the gile rate Demultiplexer means;       A plurality of transmission power calculators, each of said transmission power calculators being Coupled to a corresponding output device of the multiplexer for transmitting the transmitted power signal. A plurality of transmission power calculators for providing; The apparatus according to claim 1, further comprising: 14． Each of the plurality of transmission power calculators is:       Receiving the frame quality indication message; and Gain adjustment selection device means for selecting a gain adjustment value according to the message;       Receiving the previous transmission power value, receiving the gain adjustment value, further comprising: Total sum of the transmission power value and the gain adjustment value to obtain the transmission power signal. Steps and         14. The device according to claim 13, comprising: 15. The control processor means:       Receiving the frame quality indication message and transmitting a plurality of frequent rate transmissions. Frequent rate transmission power for determining a power level value and providing the transmission power signal Calculator means;       Receiving at least one of the plurality of frequent transmission power level values; , The at least one residual transmission of the plurality of most frequent transmission power level values A residual rate transmission power for determining a power level value and providing the transmission power signal -Level calculator means,         7. The apparatus according to claim 6, comprising: 16. The frequent transmission power calculator means:       Receiving a first set of selected frame quality messages; A reference rate transmission power according to a first set of selected frame quality messages. Reference rate calculator means for determining a level value;       Receiving a second set of selected frame quality messages; At least one additional frame according to the second set of selected frame quality messages. At least one additional frequent rate calculation for determining the rate transmission power level value Equipment means,         16. The device according to claim 15, comprising: 17． The at least one additional frequent rate calculator means is adapted to transmit the reference rate transmission The apparatus of claim 16 responsive to a power level value. 18. The reference rate calculator means is configured to transmit the at least one additional rate transmission power 17. The device according to claim 16, responsive to a level value. 19. The reference rate calculator means:       Receiving the first set of selected frame quality messages; and A reference rate gay according to the first set of selected frame quality messages; Gain adjustment selection device means for providing a gain adjustment value;       The reference rate transmission power level value according to the reference rate gain adjustment value Reference rate transmission power adjusting means for correcting         17. The device according to claim 16, comprising: 20. The reference rate adjusting means:       Sum of the reference rate gain adjustment value and the previous reference rate transmission power level value Summing means for obtaining the reference rate transmission power value,       Delay means for providing the previous reference rate transmission power level value;         20. The device according to claim 19, comprising: 21. The reference rate adjusting means further comprises at least one additional rate transmission path. Receiving at least one of the additional levels according to a predetermined value. And adjusting the transmission power level value to provide the reference rate transmission power value. 21. The device according to claim 20, comprising summing means. 22. The control processor means:       Receiving a first set of selected frame quality messages; Determining a first transmission power level value according to a first selected frame quality message; First calculator means for determining;       Receiving a second set of selected frame quality messages; At least one additional frame according to the second set of selected frame quality messages. At least one additional calculator means for determining an additional transmit power level value;       The first transmission power level value and the at least one additional transmission power Receiving the first transmission power level value and the first transmission power level value. And a reference rate transmission power according to said at least one additional transmission power level value Combined reference calculator means for determining a level value;         7. The apparatus according to claim 6, comprising: 23. Interposed between the at least one additional calculator means and the composite reference calculator means. To at least one additional transmit power level value according to a predetermined weighting format. 23. The method according to claim 22, further comprising weighting means for weighting. apparatus. 24. Receiving the at least one additional transmit power level value; A multiplier means for multiplying at least one additional transmission power level value by a weighting factor; 24. The apparatus according to claim 23, wherein said weighting means is provided. 25. 25. The weighting factor is a predetermined fixed value. Equipment. 26. Further comprising weighting factor calculator means for calculating the weighting value 26. The device according to claim 25, wherein: 27. Wherein said weighting factor calculator means is responsive to frame error rate statistics. 27. The device according to claim 26, wherein: 28. The weighting factor calculator means is responsive to a rate frequency value. An apparatus according to claim 26. 29. Receiving the reference rate transmission power value; and Residual rate transmission calculator for determining at least one additional transmission power value according to the value 23. The device of claim 22, further comprising means.